A spacecraft moves along a path described by the parametric equations shown below for the first 100 s after launch. Here, x and y are measured in meters, and t is measured in seconds. Find the magnitude and direction of the velocity of the spacecraft 10.0 s and 100 s after launch. x= 20 (1 1 +14 - 1). y = 2013/2 What would be the first step in finding the velocity of the spacecraft at a given time? O A. Use the fact that distance = rate x time. O B. Differentiate y with respect to x. SE O C. Find the values of x and y for the given value of t. O D. Differentiate the x- and y-position components to get the x- and y-velocity components Find the magnitude of the velocity of the spacecraft when t = 10 0 s The magnitude is approximately m/s (Round to the nearest integer as needed.) Find the direction of the velocity of the spacecraft when t= 10.0 s. Enter an angle 0 such that 0' s0